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A FACILITY WITH MULTIPLE WELLS WOULD REQUIRE A HEADER AND A 3-PHASE TEST SEPARATOR
TYPICAL SINGLE WELL FACILITY WITH GAS LIFT
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TYPICAL PRODUCTION METHODS AT THE WELLHEAD
FLOWING
GAS LIFT
PUMPING UNIT ROD PUMP
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ARTIFICIAL LIFT METHODS:•ROD PUMP (SUCKER RODS AND PUMP)•GAS LIFT•PLUNGER LIFT•ELECTRIC SUBMERISBLE PUMP (ESP)•PROGRESSIVE CAVITY PUMP•HYDRAULIC JET PUMP•HYDRAULIC RECIPROCATING PUMP•MULTIPHASE FLOW PUMPS•HYBRIDS (COMBINATIONS OF ABOVE)
GAS LIFT SUPPLY
PRODUCTION FROM EACH WELL FLOWS THRU A DEDICATED FLOWLINE TO A PRODUCTION HEADER.
AT THE HEADER THE FLOW IS DIRECTED BY VALVES TO A PRODUCTION SEPARATOR OR TEST SEPARATOR.
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INDIVIDUAL WELL FLOWLINES
STEP 1PRODUCTION HEADER
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STEP 1: PRODUCTION FROM EACH WELL FLOWS THROUGH A DEDICATED FLOWLINE TO THE PRODUCTION HEADER. AT THE HEADER THE PRODUCTION IS DIRECTED BY VALVES TO EITHER THE PRODUCTION HEADER, WHICH DIRECTS FLOW TO A 2-PHASE PRODUCTION SEPARATOR, OR THE TEST HEADER, WHICH DIRECTS FLOW TO A 3-PHASE TEST SEPARATOR .
STEP 1HEADER
STEP 22-PHASE PRODUCTION SEPARATOR
2-PHASE: GAS IS SEPARATED FROM THE FLUIDS (OIL & WATER)
2-PHASE SEPARATOR HAS ONLY ONE LIQUID LEVEL CONTROL AND ONE DUMP VALVE
DUMP VALVE
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STEP 2: PRODUCTION FROM THE HEADER THAT IS NOT ON TEST FLOWS THROUGH THE 2-PHASE SEPARATOR WHERE GAS IS SEPARATED FROM THE OIL AND WATER.
STEP 1HEADER
STEP 22-PHASE PRODUCTION SEPARATOR
STEP 3FREE WATER KNOCKOUT (FWKO)
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STEP 3: OIL AND WATER FROM THE 2-PHASE SEPARATOR IS TRANSFERRED TO THE FWKO. THE FWKO IS WHERE FREE WATER IS REMOVED. THE FWKO PROVIDES ADDITIONAL RESIDENCE TIME TO ALLOW THE OIL DROPLETS TO COALESCE INTO THE OIL PHASE. THE FREE WATER RECOVERED IN THE FWKO IS DISCHARGED DIRECTLY INTO THE PRODUCED WATER TANK FOR DISPOSAL.
STEP 1HEADER
STEP 22-PHASE PRODUCTION SEPARATOR
STEP 3FREE WATER KNOCKOUT (FWKO)
STEP 4 DIRECT FIRED 3-PHASE VERTICAL HEATER-TREATER
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STEP 4: THE REMAINING OIL AND WATER EMULSION IS DISCHARGED FROM THE FWKO TO THE DIRECT FIRED 3-PHASE HEATER-TREATER FOR FINAL SEPARATION OF THE OIL FROM THE WATER BEFORE STORAGE OF THE OIL AND WATER IN SEPARATE STORAGE (STOCK) TANKS.
STEP 1HEADER
3-PHASE TEST OR METERING SEPARATOR
3-PHASE: OIL, WATER, AND GAS ARE SEPARATED INTO INDIVIDUAL STREAMS
3-PHASE SEPARATOR HAS TWO LIQUID LEVEL CONTROLS AND TWO DUMP VALVES
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WHEN A WELL IS PLACED ON TEST THEN THE PRODUCTION FROM ONE WELL IS SWITCHED INTO THE TEST HEADER AND ROUTED TO THE INLET OF A 3-PHASE TEST SEPARATOR. THE OIL , WATER, AND GAS ARE SEPARATED AND THEN MEASURED. TYPICALLY, THE OIL AND WATER ARE RECOMBINED AND ROUTED TO THE HEATER-TREATER FOR FINAL TREATMENT AND THE GAS IS COLLECTED FOR SALE OR CUSTODY TRANSFER.
WATER TANK (FIBERGLASS CONSTRUCTION)
TRUCK HAULED OIL CONNECTIONOIL SALES VOLUME MEASURED AND CALCULATED PER APPLICABLE AMERICAN PETROLEUM INSTITUTE (API) MANUAL OF PETROLEUM MEASUREMENT STANDARDS (MPMS).
TRUCK HAULED WATER CONNECTION
4 OIL STOCK TANKS (STEEL CONSTRUCTION) TANKS STRAPPED AND GAUGED PER API MPMS.
LEASE OIL AND WATER STOCK TANKS
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LEASE AUTOMATIC CUSTODY TRANSFER (LACT) UNIT PER API MPMS CH. 6.1
USED IN LIEU OF TRUCK HAUL SALES.
AUTOMATES THE LEASE OIL SALES OPERATION PER API MPMS.
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VAPOR RECOVERY UNIT (VRU)
RECOVERS GAS FLASHED INTO STOCK TANKS AT LOW PRESSURE
LEASE COMPRESSION
GAS ENGINE DRIVER MAY REQUIRE LARGE VOLUMES OF LEASE GAS.
LEASE GAS COMPRESSION USED FOR SALES AND/OR GAS LIFT SUPPLY
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LEASE FACILITY FLARESLEASE FLARES REQUIRED FOR EMERGENCY OPERATING CONDITIONS AND WHEN GAS GATHERING SYSTEM INFRASTRUCTURE NOT AVAILABLE. SIGNIFICANT ROYALTY DUE AMOUNTS MAY BE ASSOCIATED WITH FLARES.
GROUND FLARE
ELEVATED FLARE
FLARE SCRUBBER VESSEL18GLO
VERTICAL 3-PHASE (OIL, WATER, & GAS) SEPARATOR
FIGURE COURTESY OF SIVALLS, INC.
IF EQUIPPED WITH METERS IT BECOMES A 3-PHASE METERING SEPARATOR
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HORIZONTAL 3-PHASE SEPARATOR
FIGURE COURTESY OF SIVALLS, INC.
THIS IS A AN EXAMPLE OF A HORIZONTAL 3-PHASE METERING SEPARATOR
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3-PHASE VERTICAL TEST SEPARATOR WITH OIL, WATER, AND GAS METERS.
SEPARATES EACH STREAM /PHASE(OIL, WATER, AND GAS) TO ALLOW FOR MEASUREMENT OF EACH STREAM BY A METER.
3-PHASE DIRECT FIRED VERTICAL HEATER-TREATER
BURNER STACK
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OIL & WATER TURBINE METERS
GAS MEASURED BY AN ORIFICE METER EQUIPPED WITH A FLOW COMPUTER, A TYPE OF FLOW RECORDER .
THIS IS ALSO KNOWN AS EFM (ELECTRONIC FLOW MEASUREMENT).
TYPICAL PRODUCTION METERSUSED ON 3-PHASE TEST SEPARATORS
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BARTON 202E CHART RECORDER
TOTALFLOW EFM FLOW COMPUTER
TWO GAS FLOW RECORDER TYPES INSTALLED ON AN ORIFICE METER
ORIFICE PLATE HOLDER AND METER TUBE 23GLO
WHAT TYPE OF SEPARATORS ARE IN THE PICTURES BELOW?
VERTICAL 3-PHASE
HINT: TWO LEVEL CONTROLS & TWO DUMP VALVES VERTICAL 2-PHASE
HINT: ONE LEVEL CONTROL & ONE DUMP VALVE
LEVEL CONTROLS
DUMP VALVELEVEL CONTROL
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FREE WATER KNOCK OUT (FWKO)PROVIDES RESIDENCE TIME TO ALLOW OIL DROPLETS TO FORM LARGER AND LARGER OIL DROPS THAT THEN FLOAT UP TO COALESCE WITH THE OIL PHASE (OIL IS LESS DENSE THAN WATER).
FIGURE COURTESY OF SIVALLS, INC. 26GLO
3-PHASE VERTICAL DIRECT FIRED
HEATER TREATER
FIGURE COURTESY OF SIVALLS, INC.
DIRECT FIRED MEANS THAT THE FIRE TUBE IS IN DIRECT CONTACT WITH THE FLUIDS THAT ARE HEATED.
HEATING THE OIL AND WATER REDUCES THE VISCOSITY, DENSITY , AND SURFACE TENSION OF THE OIL SO THAT IT WILL COALESCE EASIER INTO THE OIL PHASE.
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HORIZONTAL INDIRECT FIRED HEATER TREATER
FIGURE COURTESY OF SIVALLS, INC.
TYPICALLY USED TO CONTROL HIGH PRESSURE GAS TO PREVENT HYDRATE FORMATION.
NO SEPARATION OCCURS SINCE THE OPERATOR IS TRYING TO PREVENT PLUGGING OF THE COILS WITH HYDRATES AFTER REDUCING THE PRESSURE WITH A CHOKE (RESTRICTION).
WATER AND GLYCOL IS HEATED BY CONTACT WITH THE FIRE TUBE. THE WATER AND GLYCOL THEN TRANSFER HEAT TO THE HIGH PRESSURE COILS WHICH INCLUDES A CHOKE FOR PRESSURE CONTROL OR PRESSURE REDUCTION.
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HORIZONTAL DIRECT FIRED HEATER TREATER
OIL AND WATER EMULSION UNDER PRESSURE IS HEATED BY DIRECT CONTACT WITH THE FIRE TUBE. NOT SUITABLE FOR CORROSIVE FLUIDS OR HIGH PRESSURES.
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TYPICAL GLYCOL DEHYDRATION UNIT EQUIPMENT
FIGURE COURTESY OF SIVALLS, INC.SCHEMATIC FLOW DIAGRAM OF A GLYCOL DEHYDRATION UNIT
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COMMINGLED FACILITIES• COMMINGLING OCCURS WHEN THE PRODUCTION FROM
TWO OR MORE TX RAILROAD COMMISSION (RRC) LEASES IS COMMINGLED INTO A COMMON MANIFOLD, SEPARATION, AND/OR STORAGE.
• REGULATORY AUTHORITY TO COMMINGLE RRC LEASES IS REQUIRED FROM THE RRC PER STATE WIDE RULES (SWR) 26 AND 27 FOR OIL AND GAS. A FORM P-17 PERMIT APPLICATION IS FILED WITH THE RRC.
• AUTHORITY FROM THE STATE (GLO) IS REQUIRED PER TEXAS ADMINISTRATIVE CODE (TAC) RULE 9.35 (PURSUANT TO THE STATE LEASE) IF THE PRODUCTION FROM A STATE LEASE IS COMMINGLED WITH A PRIVATE LEASE OR ANOTHER STATE LEASE.
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COMMINGLED FACILITIES• OPERATORS COMMINGLE LEASES TO REDUCE PRODUCTION FACILITY
CAPITAL INVESTMENTS AND OPERATING EXPENSES.
• THE BASIS USED TO ALLOCATE OIL AND GAS PRODUCTION VOLUMES AFFECTS THE ROYALTY PAID TO THE ROYALTY AND WORKING INTEREST OWNERS. COMMINGLING INCREASES ALLOCATION AND METERING COMPLEXITIES AS WELL AS FINANCIAL RISK.
• GAS VOLUME AND ENERGY CONTENT CALCULATIONS (MMBTU) BY LEASE OR WELL BECOME IMPORTANT DUE TO VOLUME, WATER CONTENT, AND GAS COMPOSITION DIFFERENCES.
• LEASE USE (NON-SALES DISPOSITIONS) SUCH AS FUEL GAS, VENT GAS, AND FLARE GAS WILL HAVE TO BE ACCURATELY REPORTED AND ACCOUNTED FOR PURSUANT TO THE TERMS OF EACH LEASE.
• A STATE LEASE TYPICALLY DOES NOT ALLOW DEDUCTIONS FOR LEASE USE (BY STATUTE) WHILE A PRIVATE LEASE MAY ALLOW FOR LEASE USE.
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TYPICAL ALLOCATION BASIS IN ORDER OF INCREASING FINANCIAL RISK
• BY SEPARATION AND MEASUREMENT OF THE PRODUCTION FROM EACH LEASE TRACT.
• BY PERIODIC WELL TEST. IF AGREED TO BY ALL PARTIES; BY MONTHLY OIL WELL TEST, AND FOR GAS WELLS, PER THE RRC G-10 WELL TEST FREQUENCY, OR SOME OTHER MUTUALLY AGREED TO TEST FREQUENCY.
• BY MEASUREMENT OF THE FULL WELL STREAM (FWS) PRODUCTION OF EACH COMMINGLED GAS WELL.
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ALLOCATION BASIS IN THIS EXAMPLE IS BY SEPARATION AND MEASUREMENT OF THE PRODUCTION FROM EACH WELL (RRC LEASE ID) BY A DEDICATED LOW PRESSURE (LP) SEPARATOR.
FLASH GAS COMPRESSOR
From Well No. 1
FACILITY GAS CUSTODY TRANSFER METER
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OIL & GAS METERS (CASH REGISTER$)
• INSTALLATION PER API MPMS OR OTHER APPLICABLE INDUSTRY STANDARDS
• CALIBRATE AND PROVE ON A REGULAR BASIS• HAVE TO BE PROPERLY MAINTAINED• MUST MAINTAIN VOLUME AND FLOW
COMPUTER AUDIT RECORDS PER API MPMS• TYPE OF METER SHOULD BE THE SAME FOR ALL
LEASES FOR THE FLUID BEING MEASURED• CORRECTION OF METER VOLUME PER
APPLICABLE API MPMS AND AGA STANDARDS39GLO
OIL & GAS VOLUME CALCULATIONS• OIL METER INDICATED VOLUME CORRECTED TO STOCK TANK
CONDITIONS PER API MPMS.
• GAS VOLUME CALCULATED PER AGA/API MPMS METHODS ALSO REQUIRES CORRECTION FOR WATER CONTENT AND APPLICATION OF THE CORRECT BTU CONTENT, IN BTU/SCF, AS DRY, AS-DELIVERED, OR FULLY SATURATED (WET).
• REVENUE AND PRODUCTION ACCOUNTANTS TEND TO OVER-SIMPLFY THE ALLOCATION PROCESS, WHICH IN REALITY IS AN INVENTORY CONTROL PROBLEM.
• ERRORS MADE IN THE CALCULATION OF THE TOTAL ENERGY CONTENT, IN MMBTUS, OF A GAS CAN BE COSTLY IF THE VOLUME & BTU CONTENT ARE NOT ON THE SAME BASIS (I.E. DRY GAS VOL * DRY BTU).
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LEASE USE (FUEL, VENT, & FLARE) ALLOCATION• ALLOCATION OF LEASE USE DEPENDS ON WHAT IS BEING
HANDLED OR PROCESSED THRU A PIECE OF EQUIPMENT OR WHAT WAS THE SOURCE OF THE FLUID SUCH AS FLASH GAS DERIVED FROM OIL.
• A FLASH GAS COMPRESSOR AND A VRU IS ALLOCATED ON THE BASIS OF THE FLASH GAS VOLUME EVOLVED FROM THE OIL PRODUCED FROM EACH LEASE.
• A FIRED HEATER TREATER HANDLES FLUIDS (OIL AND WATER) THUS ALLOCATION IS BASED ON LIQUIDS.
• FLARE AND VENT VOLUMES ARE TYPICALLY BASED ON THE FLASH GAS VOLUME ASSOCIATED WITH THE OIL PRODUCED FROM EACH LEASE UNLESS THERE IS AN UPSET.
• THE BTU CONTENT OF TANK VENT GAS > LOW PRESSURE SEPARATOR FLASH GAS BTU AND > HIGH PRESSURE SEPARATOR BTU CONTENT.
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WHEN A LEASE IS COMMINGLED WITH OTHER LEASES, THE CALCULATION OF PRODUCED VOLUMES AND ROYALTY BECOMES MORE COMPLEX.
• METER SELECTION, APPLICATION, CALIBRATION, AND VOLUME CORRECTION METHODS
• ALLOCATION BASIS
• LEASE USE REPORTING AND ACCOUNTING
• QUANTIFYING THE PROCESS PLANT INLET VOLUME BY ACCOUNTING FOR WATER CONTENT AND GAS COMPOSITION DIFFERENCES
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THE END
ANY QUESTIONS?
Matthew T. Scott, P.E.Petroleum EngineerTexas General Land OfficeP. O. Box 12873Austin, Texas 78711-2873
Email: [email protected]: 512-475-2230
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